CN204254823U - A kind of intelligent ventilating system - Google Patents

Abstract

The utility model relates to a kind of intelligent ventilating system, this system comprises: at least one is for detecting the sensor of outdoor temperature, for regulating the air-conditioner of indoor temperature, for the cold air of outdoor being introduced the air-intake device of indoor and being used for the main frame of the opening and closing controlling described air-conditioner and described air-intake device; Described sensor is connected with described main frame, and the temperature of the outdoor detected is transferred to described main frame; Described main frame cuts out the described air-conditioner be connected with described main frame according to the temperature of outdoor, and starts the described air-intake device be connected with described main frame simultaneously.This system can when outdoor temperature be lower, relies on the operation of intelligent ventilating system, closes air-conditioning, meets base station equipment and normally runs requirement for temperature, reach the object of using electricity wisely.

Description

A kind of intelligent ventilating system

Technical field

The utility model relates to base station system, particularly a kind of intelligent ventilating system.

Background technology

The refrigeration plant of current base station is air-conditioner, and because the caloric value of base station equipment is comparatively large, portion of base stations also needs operation of air conditioner to be base station room temperature lowering in the winter time.Base station is part important in communication system, and in the operation of base station, base station main equipment and base station storage batteries require all very high to environment temperature, too high or too low for temperaturely all directly may cause base station service quit, and high temperature also has fatal impact to the service life of battery.Therefore, can't do without base station air conditioner in base station.In order to ensure constant temperature in base station, thus ensure the normal operation of base station equipment, no matter how outdoor temperature changes, and existing base station air conditioner, is all open throughout the year.Such base station air conditioner power consumption is very large.

Utility model content

The utility model provides a kind of intelligent ventilating system, this system when outdoor temperature is lower, can rely on the operation of intelligent ventilating system, closes the running time of air-conditioning or minimizing air-conditioning completely, meet base station equipment and normally run requirement for temperature, reach the object of using electricity wisely.

For solving the problem, the utility model provides a kind of intelligent ventilating system, and this system comprises:

At least one is for detecting the sensor of outdoor temperature, for regulating the air-conditioner of indoor temperature, for the cold air of outdoor being introduced the air-intake device of indoor and being used for the main frame of the opening and closing controlling described air-conditioner and described air-intake device;

Described sensor is connected with described main frame, and the temperature of the outdoor detected is transferred to described main frame; Described air-conditioner is connected with described main frame, receives the unlatching from described main frame or out code; Described air-intake device is connected with described main frame, receives the unlatching from described main frame or out code.

Compared with prior art, in the utility model, described main frame receives the temperature being placed on the outdoor that outdoor sensor detects, then main frame judges whether will cut out air-conditioning and open air-intake device according to the height of this temperature, when main frame judges outdoor temperature less than or equal to the first temperature threshold, just can close air-conditioning, open air-intake device simultaneously.Thus temperature requirement when utilizing naturally outdoor Cryogenic air and cross-ventilated principle to meet base station operation, reach the object of using electricity wisely.

Preferably, described intelligent ventilating system also comprises: at least one sensor for detecting indoor temperature be connected with described main frame.

This sensor detects indoor temperature in real time.

Preferably, described intelligent ventilating system also comprises: the humidity sensor be connected with described main frame.

Because base station operation has requirement to temperature and humidity, therefore, this system is also provided with humidity sensor, and the humidity detected by this humidity sensor provides reference can to the adjustment of base station humidity.

Described intelligent ventilating system also comprises: the exhaust apparatus be connected with described main frame.Described exhaust apparatus is centrifugal exhaust apparatus.The exit of described air-intake device and described exhaust apparatus is also provided with Air door sensor, air-valve and wind speed control valve.Described air-intake device and described exhaust apparatus all adopt L-type pipe design, the downward 45 ° of inclinations of described pipeline tapping.

As further improvement of the utility model, this system is also provided with exhaust apparatus, and air higher for temperature in base station can be discharged base station by this device, thus the temperature in base station can be adjusted to a temperature meeting base station operation and require.In addition, Air door sensor, air-valve and wind speed control valve can also be set for the exit of air-intake device within the system and exhaust apparatus, when this Air door sensor detects outdoor temperature less than or equal to the first temperature threshold, start this air-intake device and exhaust apparatus; When this Air door sensor detects outdoor temperature higher than the first temperature threshold, close this air-intake device and exhaust apparatus; Also can the entering and go out of manual adjustments wind by this air-valve, air inlet/outlet is operated more convenient, convenient management and operation.Further, air-intake device and exhaust apparatus in this system all can be adopted L-type pipe design, pipeline tapping can be designed as downward 45 ° skewed, when such design can prevent rainy day, rainwater flows into indoor.

Described intelligent ventilating system also comprises: the air ducting be connected with described main frame, dust arrester and attemperator.

As to further improvement of the utility model, also be provided with air ducting in this system, natural wind lower for temperature can be imported to the higher device place of temperature in base station by this device, makes this device fast cooling, this system is used more convenient, meet the need of work of base station; Dust arrester can keep the clean of this system, thus indirectly reduces the probability of system jam; Attemperator can when utilizing the natural wind of air-intake device that the temperature in base station is down to the temperature needed for base station operation, close air-conditioning and air-intake device simultaneously, thus making the temperature in base station can keep the temperature value of a relative constancy within a period of time, this device can save electric energy further.

As to further improvement of the utility model, described intelligent ventilating system also comprises: the communication interface be connected with described main frame.

By this communication interface, this system can be communicated with between other system.

As to further improvement of the utility model, described intelligent ventilating system also comprises: the display board for showing indoor temperature be connected with described main frame.

The people in base station can be allowed to know indoor temperature very easily by this display board.

As to further improvement of the utility model, described intelligent ventilating system also comprises: the data acquisition unit be connected with described main frame.

This data acquisition unit is used for the temperature data of indoor and outdoors that statistical history detects, is conveniently optimized according to the performance of these data to this system.

Accompanying drawing explanation

Fig. 1 is the structural representation of the intelligent ventilating system that the utility model first embodiment provides;

Fig. 2 is the structural representation of the intelligent ventilating system that the utility model second embodiment provides;

Fig. 3 is the structural representation of the intelligent ventilating system that the utility model the 3rd embodiment provides;

Fig. 4 is the structural representation of the intelligent ventilating system that the utility model the 4th embodiment provides.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, each embodiment of the present utility model is explained in detail.But, persons of ordinary skill in the art may appreciate that in each embodiment of the utility model, proposing many ins and outs to make reader understand the application better.But, even without these ins and outs with based on the many variations of following embodiment and amendment, each claim of the application technical scheme required for protection also can be realized.

First embodiment of the present utility model relates to a kind of intelligent ventilating system, and this system can be applied in base station or machine room, and the operation principle of this system is: when outdoor temperature height, adopts air conditioning operating mode.When outdoor temperature is lower, according to the temperature conditions of indoor, control air-conditioning shutdown, utilize cross-ventilated principle, make full use of natural cooling source, the outside air compared with low temperature through filtration treatment of machine room is introduced by air-intake device in the position lower at machine room, makes machine room or base station cooling.Therefore, when outdoor temperature is lower, relies on the operation of intelligent ventilating system, air-conditioning can be closed completely, but still can meet base station equipment normally runs requirement for temperature, reaches the object of saving electric energy.In addition, system host can set the threshold values of outdoor temperature, and the change of monitoring outdoor temperature, when outdoor temperature state meets the condition of the machine that blows in, will automatically close air-conditioning and start fan operation, to improve energy-saving effect to greatest extent.

As shown in Figure 1, this system comprises: at least one is for detecting the sensor 11 of outdoor temperature, for regulating the air-conditioner 12 of indoor temperature, for the cold air of outdoor is introduced indoor air-intake device 13, and for the main frame 10 of the opening and closing that control air-conditioner 12 and air-intake device 13.Sensor 11 is connected with main frame 10, and the temperature of the outdoor detected is transferred to main frame 10; Main frame 10 cuts out the air-conditioner be connected with main frame 10 according to the temperature of outdoor, and starts the air-intake device 13 be connected with main frame 10 simultaneously.Concrete, when outdoor temperature is higher, indoor are general all to lower the temperature by opening air-conditioner 12; Sensor 11 can be multiple temperature sensor, and this temperature sensor is used for the temperature outside real-time sensing chamber, and sends the temperature detected to main frame 10; The outdoor temperature data that main frame 10 receiving sensor 11 sends, and these data and the first temperature threshold are compared, if these data are greater than the first temperature threshold, then do not do any action, that is continuing using air-condition device is room temperature lowering; simultaneously If these data are less than or equal to the first temperature threshold, prove that outdoor temperature is lower, outdoor has a large amount of low temperature cold air to exist, therefore, now air-conditioning just can be closed by sending control command by main frame, open air-intake device simultaneously, the Cryogenic air of outdoor is introduced indoor by this air-intake device.Especially, in order to ensure the clean of indoor environment, this air-intake device sends into indoor again after Cryogenic air being filtered.

When outdoor temperature raises, namely main frame judges to obtain temperature data that outdoor temperature sensor detects when being greater than the first temperature threshold, and air-intake device can be closed by main frame, opens air-conditioner simultaneously, and using air-condition device adjusts the temperature in base station.Example, the first temperature threshold can be 10 DEG C.

It should be noted that, the first temperature threshold can be arranged in advance, and concrete settings can be determined according to engineering experience value, and this is not restricted for the utility model.In addition, air-intake device can be made up of fan group.

Compared with prior art, in the utility model, described main frame receives the temperature being placed on the outdoor that outdoor sensor detects, then main frame judges whether will cut out air-conditioning and open air-intake device according to the height of this temperature, when main frame judges outdoor temperature less than or equal to the first temperature threshold, just can close air-conditioning, open air-intake device simultaneously.Thus temperature requirement when utilizing naturally outdoor Cryogenic air and cross-ventilated principle to meet base station operation, reach the object of using electricity wisely.

Second embodiment of the present utility model relates to a kind of intelligent ventilating system.Second embodiment has done further improvement on the basis of the first embodiment, as shown in Figure 2, main improvements are: in the utility model second embodiment, also add the exhaust apparatus 14, air ducting 15, dust arrester 16 and the attemperator 17 that are connected with main frame.

This exhaust apparatus 14 can be axial-flow type exhaust apparatus, and this exhaust apparatus can also be blower fan.When main frame 10 determines outdoor temperature less than or equal to the first temperature threshold, when air-conditioner 12 being closed and starts air-intake device 13 simultaneously, in a period of time, the higher air of a lot of temperature will be built up in indoor, therefore, now can this exhaust apparatus 14 and air ducting 15 also be started simultaneously, this exhaust apparatus 14 is connected with main frame 10, utilize cross-ventilated principle, this exhaust apparatus 14 can while Cryogenic air be introduced indoor by air-intake device 13, air higher for temperature in base station is discharged base station, make the effect of this system fading margin temperature more remarkable, thus the temperature in base station can be adjusted to a temperature meeting base station operation and require, especially, this exhaust apparatus 14 can be centrifugal exhaust apparatus, the exit of this device can also arrange Air door sensor, air-valve and wind speed control valve simultaneously, when this Air door sensor detects outdoor temperature less than or equal to the first temperature threshold, starts this air-intake device and exhaust apparatus, when this Air door sensor detects outdoor temperature higher than the first temperature threshold, close this air-intake device and exhaust apparatus, also can the entering and go out of manual adjustments wind by this air-valve, air inlet/outlet is operated more convenient, facilitate management and the operation of people.Further, air-intake device and exhaust apparatus all can be adopted L-type pipe design in present embodiment, this pipeline generally all can be installed on the wall in room, pipeline tapping can be exposed to outdoor, so pipeline tapping can be designed to downward 45 ° skewed, when such design can prevent rainy day, rainwater flows into indoor.In addition, when installing these pipelines, the aperture of perforate is on the wall less than 200mm, and the aperture of such size not only meets the demand of Pipe installing, can also prevent brokenly the generation of wall larceny.Dust arrester 16 can keep the clean of this system, thus indirectly reduces the probability of system jam; Attemperator 17 can when utilizing the natural wind of air-intake device that the temperature in base station is down to the temperature needed for base station operation, close air-conditioning and air-intake device simultaneously, thus making the temperature in base station can keep the temperature value of a relative constancy within a period of time, this device can save electric energy further.

3rd embodiment of the present utility model relates to a kind of intelligent ventilating system.3rd embodiment has done further improvement on the basis of the second embodiment, as shown in Figure 3, main improvements are: in the utility model the 3rd embodiment, also add the indoor temperature transmitter 18 that at least one is connected with main frame, this temperature sensor is used for the temperature in real-time sensing chamber, and this temperature data is sent to main frame, simultaneously, main frame is connected with a display board 19, indoor current temperature can be seen intuitively by this display board 19.Main frame can be real-time this temperature is compared with the second temperature threshold and the 3rd temperature threshold respectively, object judges that whether indoor temperature is higher than the second temperature threshold, or judge that whether the temperature of indoor is lower than the 3rd temperature threshold; When main frame judges that indoor temperature is higher than the second temperature threshold, or when judging indoor temperature lower than the 3rd temperature threshold, in order to timely indoor temperature be reduced or raise, now air-intake device is closed, air-conditioner is opened, rely on air-conditioner to adjust indoor temperature.The mode adjusting indoor temperature flexibly not only fully ensure that and also a saving electric energy by the needs of each component working in base station.Example, the second temperature threshold can be 25 DEG C, and the 3rd temperature threshold can be 20 DEG C.

4th embodiment of the present utility model relates to a kind of intelligent ventilating system.4th embodiment has done further improvement on the basis of the 3rd embodiment, as shown in Figure 4, main improvements are: in the utility model the 4th embodiment, also add a humidity sensor 20 be connected with main frame 10, this humidity sensor 20 is for the humidity in real-time sensing chamber, because base station and machine room are operationally, the humidity for working environment has certain requirements, and adding this humidity sensor 20 can provide reference to the adjustment of base station humidity.Further, this system also add a communication interface be connected with main frame 21 and data acquisition unit 22, this communication interface 21 can be RS485 interface or RS232 interface, by this communication interface 21, this system can be communicated with between other system, expands a function of this system.The temperature that data acquisition unit 22 detects for adding up indoor temperature transmitter 18 and outdoor temperature sensor 11, is conveniently optimized according to the performance of these data to this system.In addition, this system additionally uses the design of insect protected dust and moisture, has fire-proof function concurrently simultaneously.

Persons of ordinary skill in the art may appreciate that the respective embodiments described above realize specific embodiment of the utility model, and in actual applications, various change can be done to it in the form and details, and do not depart from spirit and scope of the present utility model.

Claims (10)

1. an intelligent ventilating system, is characterized in that, this system comprises:

At least one is for detecting the sensor of outdoor temperature, for regulating the air-conditioner of indoor temperature, for the cold air of outdoor being introduced the air-intake device of indoor and being used for the main frame of the opening and closing controlling described air-conditioner and described air-intake device; Described sensor is connected with described main frame, and the temperature of the outdoor detected is transferred to described main frame; Described air-conditioner is connected with described main frame, receives the unlatching from described main frame or out code; Described air-intake device is connected with described main frame, receives the unlatching from described main frame or out code.

2. according to intelligent ventilating system according to claim 1, it is characterized in that, described intelligent ventilating system also comprises: at least one sensor for detecting indoor temperature be connected with described main frame.

3. intelligent ventilating system according to claim 1, is characterized in that, described intelligent ventilating system also comprises: the humidity sensor be connected with described main frame.

4. intelligent ventilating system according to claim 1, is characterized in that, described intelligent ventilating system also comprises: the exhaust apparatus be connected with described main frame.

5. intelligent ventilating system according to claim 4, is characterized in that, described exhaust apparatus is centrifugal exhaust apparatus.

6. intelligent ventilating system according to claim 4, is characterized in that, the exit of described air-intake device and described exhaust apparatus is also provided with air door inductor, air-valve and wind speed control valve.

7. intelligent ventilating system according to claim 4, is characterized in that, described air-intake device and described exhaust apparatus all adopt L-type pipe design, the downward 45 ° of inclinations of described pipeline tapping.

8. intelligent ventilating system according to claim 1, is characterized in that, described intelligent ventilating system also comprises: the air ducting be connected with described main frame, dust arrester and moisturizing device.

9. according to intelligent ventilating system according to claim 1, it is characterized in that, described intelligent ventilating system also comprises: the communication interface be connected with described main frame.

10. intelligent ventilating system according to claim 1, is characterized in that, described intelligent ventilating system also comprises: the display board for showing indoor temperature be connected with described main frame.